/*========================== begin_copyright_notice ============================

Copyright (C) 2017-2021 Intel Corporation

SPDX-License-Identifier: MIT

============================= end_copyright_notice ===========================*/

#ifndef IGC_COMMON_TYPES_H
#define IGC_COMMON_TYPES_H

#include "IGC/common/StringMacros.hpp"
#include "3d/common/iStdLib/types.h"

#include "AdaptorCommon/API/igc.h"
#include "common/debug/Debug.hpp"

#include "IGC/common/LLVMWarningsPush.hpp"
#include "llvm/Config/llvm-config.h"
#include "llvm/Support/TypeSize.h"
#include "IGC/common/LLVMWarningsPop.hpp"
#include "Probe/Assertion.h"
#include "IGC/common/shaderHash.hpp"
#include "EmUtils.h"

namespace USC {
struct ShaderD3D;
}

namespace IGC {
enum PrecisionType : uint8_t {
  PRECISION_UNUSED,
  U8,
  U4,
  U2,
  S8,
  S4,
  S2,
  BF8,
  HF8,
  TF32 = 10,
  BF16,
  FP16
};

inline uint32_t getPrecisionInBits(PrecisionType P) {
  switch (P) {
  default:
    break;
  case BF16:
  case FP16:
    return 16;
  case U8:
  case S8:
    return 8;
  case U4:
  case S4:
    return 4;
  case U2:
  case S2:
    return 2;
    // PVC
  case TF32:
    return 32;
  }
  return 0;
}
} // namespace IGC

enum class SIMDMode : unsigned char { UNKNOWN, SIMD1, SIMD2, SIMD4, SIMD8, SIMD16, SIMD32, END, BEGIN = 0 };

enum class SIMDStatus : unsigned char { SIMD_BEGIN = 0, SIMD_PASS, SIMD_FUNC_FAIL, SIMD_PERF_FAIL, SIMD_END };

inline uint16_t numLanes(SIMDMode width) {
  switch (width) {
  case SIMDMode::SIMD1:
    return 1;
  case SIMDMode::SIMD2:
    return 2;
  case SIMDMode::SIMD4:
    return 4;
  case SIMDMode::SIMD8:
    return 8;
  case SIMDMode::SIMD16:
    return 16;
  case SIMDMode::SIMD32:
    return 32;
  case SIMDMode::UNKNOWN:
  default:
    IGC_ASSERT_MESSAGE(0, "unreachable");
    return 1;
  }
}

inline SIMDMode lanesToSIMDMode(unsigned lanes) {
  switch (lanes) {
  case 1:
    return SIMDMode::SIMD1;
  case 2:
    return SIMDMode::SIMD2;
  case 4:
    return SIMDMode::SIMD4;
  case 8:
    return SIMDMode::SIMD8;
  case 16:
    return SIMDMode::SIMD16;
  case 32:
    return SIMDMode::SIMD32;
  default:
    IGC_ASSERT_MESSAGE(0, "Unexpected number of lanes!");
    return SIMDMode::UNKNOWN;
  }
}

enum class ShaderType {
#include "ShaderTypesIncl.h"
};

enum class ShaderDispatchMode {
  NOT_APPLICABLE,
  SINGLE_PATCH,
  DUAL_PATCH,
  EIGHT_PATCH,
  DUAL_SIMD8,
  QUAD_SIMD8_DYNAMIC, // 3DTATE_PS_BODY::PolyPackingPolicy::POLY_PACK8_DYNAMIC
  END,
  BEGIN = 0
};

static const char *ShaderTypeString[] = {"ERROR",
                                         "VS",
                                         "HS",
                                         "DS",
                                         "GS",
                                         "TASK",
                                         "MESH",
                                         "PS",
                                         "CS",
                                         "OCL",
                                         "RAYDISPATCH",
                                         "ERROR"};

static_assert(sizeof(ShaderTypeString) / sizeof(*ShaderTypeString) == static_cast<size_t>(ShaderType::END) + 1,
              "Update the array");

template <typename TIter> class RangeWrapper {
public:
  TIter &begin() { return m_first; }
  TIter &end() { return m_last; }

private:
  RangeWrapper(TIter first, TIter last) : m_first(first), m_last(last) {}

  TIter m_first;
  TIter m_last;

  template <typename T> friend inline RangeWrapper<T> range(const T &first, const T &last);
};

/**
 * \brief Create a proxy to iterate over a container's nonstandard iterator pairs via c++11 range-for
 *
 * This is to be used for containers that provide multiple sets of iterators
 * such as llvm::Function, which has begin()/end() and arg_begin()/arg_end().
 * In the latter case, range-for cannot be used without such a proxy.
 *
 * \example
 *     for ( auto arg : range( pFunc->arg_begin(), pFunc->arg_end() ) )
 *     {
 *         ...
 *     }
 */
template <typename TIter> inline RangeWrapper<TIter> range(const TIter &first, const TIter &last) {
  return RangeWrapper<TIter>(first, last);
}

template <typename TEnum> class EnumIter {
public:
  EnumIter operator++(/* prefix */) {
    increment_me();
    return *this;
  }
  EnumIter operator++(int /* postfix */) {
    TEnum old(m_val);
    increment_me();
    return old;
  }
  TEnum operator*() const { return m_val; }
  bool operator!=(EnumIter const &other) const { return !is_equal(other); }
  bool operator==(EnumIter const &other) const { return is_equal(other); }

private:
  EnumIter(TEnum init) : m_val(init) {}
  bool is_equal(EnumIter const &other) const { return m_val == other.m_val; }
  void increment_me() { m_val = static_cast<TEnum>(static_cast<unsigned int>(m_val) + 1); }

  template <typename T> friend inline RangeWrapper<EnumIter<T>> eRange(T, T);

  TEnum m_val;
};

/**
 * \brief Create a proxy to iterate over every element of an enumeration
 *
 * Assumes that TEnum follows this pattern, with no gaps between the enumerated values:
 * enum class EFoo {
 *     E1,
 *     E2,
 *     END,
 *     BEGIN = 0
 * };
 */
template <typename TEnum>
inline RangeWrapper<EnumIter<TEnum>> eRange(TEnum begin = TEnum::BEGIN, TEnum end = TEnum::END) {
  return range(EnumIter<TEnum>(begin), EnumIter<TEnum>(end));
}

/// Template that should be used when a static_cast of a larger integer
/// type to a smaller one is required.
/// In debug, this will check if the source argument doesn't exceed the target type range.
/// In release, it is just static_cast with no check.
///
/// Note that the cases where one needs to typecast integer types should be infrequent.
/// Could be necessary when dealing with other interfaces, otherwise think twice before
/// using it - maybe changing types or modifying the code design would be better.
template <typename TDst, typename TSrc>
inline typename std::enable_if<std::is_signed<TDst>::value && std::is_signed<TSrc>::value, TDst>::type
int_cast(TSrc value) {
  static_assert(std::is_integral<TDst>::value && std::is_integral<TSrc>::value,
                "int_cast<>() should be used only for conversions between integer types.");

  IGC_ASSERT(std::numeric_limits<TDst>::min() <= value);
  IGC_ASSERT(value <= std::numeric_limits<TDst>::max());

  return static_cast<TDst>(value);
}

template <typename TDst, typename TSrc>
inline typename std::enable_if<std::is_signed<TDst>::value && std::is_unsigned<TSrc>::value, TDst>::type
int_cast(TSrc value) {
  static_assert(std::is_integral<TDst>::value && std::is_integral<TSrc>::value,
                "int_cast<>() should be used only for conversions between integer types.");

  IGC_ASSERT(value <= static_cast<typename std::make_unsigned<TDst>::type>(std::numeric_limits<TDst>::max()));

  return static_cast<TDst>(value);
}

template <typename TDst, typename TSrc>
inline typename std::enable_if<std::is_unsigned<TDst>::value && std::is_signed<TSrc>::value, TDst>::type
int_cast(TSrc value) {
  static_assert(std::is_integral<TDst>::value && std::is_integral<TSrc>::value,
                "int_cast<>() should be used only for conversions between integer types.");

  IGC_ASSERT(0 <= value);
  IGC_ASSERT(static_cast<typename std::make_unsigned<TSrc>::type>(value) <= std::numeric_limits<TDst>::max());

  return static_cast<TDst>(value);
}

template <typename TDst, typename TSrc>
inline typename std::enable_if<std::is_unsigned<TDst>::value && std::is_unsigned<TSrc>::value, TDst>::type
int_cast(TSrc value) {
  static_assert(std::is_integral<TDst>::value && std::is_integral<TSrc>::value,
                "int_cast<>() should be used only for conversions between integer types.");

  IGC_ASSERT(value <= std::numeric_limits<TDst>::max());
  return static_cast<TDst>(value);
}

template <typename TDst>
inline typename std::enable_if<std::is_unsigned<TDst>::value, TDst>::type int_cast(llvm::TypeSize value) {
  static_assert(std::is_integral<TDst>::value,
                "int_cast<>() should be used only for conversions between integer types.");

  IGC_ASSERT(value.getFixedValue() <= std::numeric_limits<TDst>::max());
  return static_cast<TDst>(value.getFixedValue());
}

template <typename TDst>
inline typename std::enable_if<std::is_signed<TDst>::value, TDst>::type int_cast(llvm::TypeSize value) {
  static_assert(std::is_integral<TDst>::value,
                "int_cast<>() should be used only for conversions between integer types.");

  IGC_ASSERT(value.getFixedValue() <=
             static_cast<typename std::make_unsigned<TDst>::type>(std::numeric_limits<TDst>::max()));
  return static_cast<TDst>(value.getFixedValue());
}

#endif // IGC_COMMON_TYPES_H
